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Validation of an automated counting procedure for phthalate-induced testicular multinucleated germ cells
Citation:
Spade, D., C. Yue Bai, C. Lambright, J. Conley, K. Boekelheide, AND E. Gray. Validation of an automated counting procedure for phthalate-induced testicular multinucleated germ cells. TOXICOLOGY LETTERS. Elsevier Science Ltd, New York, NY, 290:55-61, (2018).
Impact/Purpose:
This study describes a new validated, automated method for accurate counting of abnormal germ cells in the fetal rat testis. Prior to the development of this method the data counting technique was very tedious, low-throughput and unbiased.
Description:
In utero exposure to certain phthalate esters results in testicular toxicity, characterized at the tissue level by induction of multinucleated germ cells (MNGs) in rat, mouse, and human fetal testis. Phthalate exposures also result in a decrease in testicular testosterone in rats. The anti-androgenic effects of phthalates have been more thoroughly quantified than testicular pathology due to the significant time requirement associated with manual counting of MNGs on histological sections. An automated counting method was developed in ImageJ to quantify MNGs in digital images of hematoxylin-stained rat fetal testis tissue sections. Timed pregnant Sprague Dawley rats were exposed by daily oral gavage from gestation day 17 to 21 with one of eight phthalate test compounds or corn oil vehicle. Both the manual counting method and the automated image analysis method identified di-n-butyl phthalate, benzyl butyl phthalate, dipentyl phthalate, and di-(2-ethylhexyl) phthalate as positive for induction of MNGs. Dimethyl phthalate, diethyl phthalate, the brominated phthalate di-(2-ethylhexyl) tetrabromophthalate, and dioctyl terephthalate were negative. The correlation between automated and manual scoring metrics was high (r = 0.923). Results of MNG analysis were consistent with these compounds’ anti-androgenic activities, which were confirmed in an ex vivo testosterone production assay. We have developed a reliable image analysis method that can be used to facilitate dose-response studies for the reproducible induction of MNGs by in utero phthalate exposure.
